Winding and rewinding machine.



INVENTOR Patented Aug. 6, 1918. 2 SHEETS-SHEET APPLICATION FILED DEC. I8. I91].

R W JONES WINDING AND REWINDING MACHINE.

Win/asses.

FZYERS (317.,mmIO-urmkv vIAsmnumN. n. c.

B. W. JONES.

WINDING ANDREWINDING MACHINE.

APPLICATION FILED DEC. 18. I917.

.1 ,274,89 Patented Aug. 6, 1918.

2 SHEETS-SHEET 2.

"mnnnnunu 68 illlllm mllllll Wnwesszs,

ifmw" ROBERT W. JONES, oEwIL Es BAnR PENNSYLVANIA.

WINDING AND IRE-WINDING MACHINE.

Specification of Letters Patent.

Patented. Aug. 6, 1918.

application filed. December 18, 1917. Serial No. 207,807. v

To all whom it may concern: a v

Be it known that I, ROBERT W. JoNEs, a citizen of the United States, residing ,at Wilkes-Barre, Luzerne county, Pennsylvania, have invented new and useful Improvements in Winding and Rewinding Machines, of which the following is a specifica-.

tion.

My invention relates to winders and-re-l winders for cinematograph films. In the cinematographic ormotion picture art, the strips of film, which are of various lengths, are continuously wound and re-.

wound from the time of their production throughout their entire life.

Much of this winding andrewinding must be effected at comparatively slow speeds, owing to the various processes and treatments through which the films pass, but after the films are developed and dried, the speed with which the future windings and rewindings take place, becomes an importantffactor in the art. Thus, the film as it comes.

from the drying drums in a coil, is unwound and inspected forimperfections, insertions,

corrections or what not, after whichit must be rewound. Then, each time after it has been thrown on the screen, it mustbe rewound, as its passage through the projecting machine winds it reversely on the receiving reel or spool. ,And it is in th1s work, that speed of rewindlng is particularly necessary,

in order to place the film in condition for repro ection on the screen, as soon as posslble.

the coiled film being placed for rotation .on

a suitable support,.and the outer end of the film ribbon or strip attached to an empty spool splined on the shaft of a windingmachine. A manually-rotated drive shaft connected by multiplying gearing to the spline, shaft, turns the latter to wind the film onto. the empty spool, the film unwinding from the supply spool according to the speed of rotation of the winding spool.

Obviously, the manual windingof th film in this manner is. a slow 'process,"and necessitates considerable physical labor, es-

pecially whenrunning off long reels of a thousand feet or more. I g

Consequently, attempts have been made to turn the winding'spool'by power, as by an electric motor.

1 One such device comprises a continuously running motor directly connected to the .drive shaft, on which the winding spool is splined, by a belt and pulleys, no means being provided to effect a disconnection of the drive and thewinding spool, 01' to instantaneously arrest the :winding spool in case. i of breakage of the film or for the inspection or repair thereof. Instead, the operator, when wishing to stop the spool, must turn off the electric current supply to the motor,

and waitforthe latter'to cease its rotations.

Incidentally, breakage of the film in wind ing is of frequent occurrence, and as the Winding machine continues to turn under its own impetusand the weight of the reel after the power is turned ofi, thereis great liability that the film, often worth thousands of dollars, will be irreparably damaged. The loose end unwinds from the supply spool or reel and whips itself all over the compartment, especially if the break occurs When the spools are rotating'at 2000 or more R. P. M. o s v Not only will this rough and violent treatment injure the film, which is very likely tobecome caught in the belting and be torn,

but also, because of 'its'inflammability, a spark from the motor will ignite the film and result in its total destrution.

Hence, because of its-many disadvantages,

the uncontrolled motor-driven winding mas chines have not found favor among the From the very inception of the art to the v present time, films have been generally rewound by hand, thesupply spool containing novin icture manufacturers dealers or b 7 I l users. l

- To enable the films to be wound and rearrested-When desired, I have devised a .niotor-driven Winding machine, equipped with a belt tightener and brake, alternately r whipping, loose end of broken film, by so arranging the mechanism, that removal of pressure on the pedal, releases the belt,

v the natural inclination of the operator (who 7 is often a girl) to jump away from the noisy,

tightener to slacken the belt and thus prevent transmission of power from themotor to the winding spindle. Simultaneously. a

brake is applied to the spindle shaft, to instantaneously arrest the rotation of the winding spool. p

The present application is an implicate ment on the-above mechanism of the ,prior "application.

One of the objects of the "present i'nvea tion is the provision of an improved and noveldrive'mechanismfor'the spindle supporting the winding spool or reel, which permitscf very accurate adjustments and is more readily controlled.

In 'the form chosen for illustration, the drive shaft which terminates 'at one end in a spindle,is provided with separable and co-' acting drive members, in combination with an endless belt, and'means un'der'controlof "the operator to render the drive members effective to tighten or rele'asethe belt.

Another object of the invention is the'provision of instantly available meansto support the belt, when released by the drive members, inposition to be again acted upon by the drive members, at will.

This I accomplish by providing what I may termfa"free wheel interposable 'between'the drive members as the belt is released, to support the loosenedbelt until'the drive members are again operated to enable the beltto rotate the drive shaft.

The control. mechanism for the drive 1nem bers is operated by a spring-pressed foot pedal which also actuates a brake, as in the prior pending application.

Disabling the drive members by the removal of the foot pressure on the pedal, frees the brake for action'to arrest the r0- tation of the winding spool, to enable the operator to inspect or repair the film when necessary without loss of time, and after suchinspection orrepairs are made, depression of the foot pedal releases the brake,

and actnates the control members to operate'the drive members and cause the trans mission of rotation to the spool.

Another object of the invention is the pro vision of adpistments for the controlling mechanism to take up wear of the parts; to enable the control mechanism to accommodate belts of various sizes; andto synchr0-' enabl'es the operator toregulate'the spe'ed 'of rotation of the winding spool much more "readily than *heretofor'e, by"regiilating the relative movement "imparted to the control members. By this means, the operator can control the speed at which the film is winding, with the utmost ease and exactness, whereby, without other change than the alteration of pressure of the operators foot on the control lever, the speed at which the film is wound can be varied to suit all requirements. This is of particular value, as it is desired to inspect the filnrforimp'erfections, mending, or what not, which necessitates winding at a comparatively slowspeed, and then, *whenthe corrections or repairs h'a-ve been made, to speed up the "winding to the highest possible point at which the film can be run by the' motor.

No motor-driven film winding machine of which I amsaw'a're; other than'that shown in my pending application hereinafter referred to, is capable of such performance and control. V

In the accompanying drawings, Figure 1 is left side view of one embodiment of my invention;

Fig. 2 is a front view thereof;

Fig. 3 is a front elevation partly in section, showing more fully, the drive and brake control Fig. 4: is a" right side view of the drive and brake mechanisms; V

Fig. 5 is a longitudinal sectional view, partly in full lines,'of the drive mechanism, and its controlling means;

Figs. 6 and 7 are detail views, showing th'e'coacting faces of the respective 'drivecontrolling members;

Fig. 8 is a detail sectional View of the retainer for the reel Fig. 9 is a detail'sectional View through the hub of the 'fast'drive member; showing the manner ofsecurin'g it to the drive shaft;

Fig. 10 is a fragmentary sectional view through the drive shaft,-to show the lock- 'ing "washer which holds the free wheel in place, and

Fig. 11 is a det'ail'plan viewshowing the manner of applying the washer.

Referring to Figs. '1, 2 and-3, a

"frameor standard A is'securedto andprojects upwardly from a suitable support, as a bench,ta'ble ordesk 1, a hollow brace 2 connecting'the legs '3, 3- of'the standard at a pointintermediat'etheir ends. v

The legs are fapertured in alinement'with the bore ofthebraceKFigs. 3 and 5) to ac COIIUHOCIMZQ asleeve bearing 4, (preferably ofbronze), inwhich a d'rive'shaft 5 is journaled. An 'oil cup 5" seated in'a tapped hole in the'hollow brace 2 communicates with an orifice inthe bearing 4 to supply lubricant to the drive shaft.

The shaft projectsfrom the opposite ends of the bearing et'beyond the 'l'egs 3, 3* thereof, the forwardly proj ecting portion of the shaft terminating in a spindle 5 adapted to support the usual reel "or spool 6 -(Fig. *1) on bifurcated which thefilms are wound. A spline. or key' 7 (Fig. on the spindle, enters the usual keyway. .(not shown). in the hub of the spool shaft relatively to the standard, and affords a stop for the inner end of the hub of the spool 6, whenplaced on the spindle.

In former winding machines, with the exception of that shown in my prior pending application, the spindle extends rearwardly behind the machine, which renders it necessary for the operator to reach over the machine and fit the spool onto the spindle by the sense of touch. This also brings the hands and clothing of the operator into dangerous proximity to the. machine, besidesoccasiomng inconvenience in fitting the spool blindly onto the spindle.

It will benoted that the spindle of-the present invention, projects forwardly, toward the operator, to enable the ready application of the'reel's to. and their removal from the machine,'the parts being in full sight. I I

The opposite end 9 (Fig. 5) ofrthe drive shaft 5 is reduced and projectsrearwardly' beyond the rear leg 3 of the standard, to support the releasable drive and controlling mechanism for the shaft and spindle. p

In the present form of my lnvention, I

have provided a more accurate and sensitive driving means for the shaft 5, and to this end, I equip the combined fly and brake wheel 10, shown in my prior pending application, with a tubular barrel 11, projecting from the inner face of the web thereof and v adapted to fit over the reduced portion 9 of r the drive shaft, with its free end against the drive shaft.

shoulder 12 at the juncture of'thereduced portion 9 andrthe bearing portion .5 of the The shoulder 12 prevent-s inward thrust of the drivemechanismon the H shaft.- Set screws 13 '5 an'dg9). pass through a hollow boss '14: formed onthe outer face of the fly wheel 10, concentrically with thebarrel 11, and engage the outer end of thereduced portion 9 of the drivezshaft,

to secure theparts in place. A retaining screw 15 threaded longitudinally into vthev 7 rear end, of the drive shaft 9, has a head 16 of sufficient diameter tooverlie the centrally located boss 14 of the fly wheel, and with the set screws 13 revents the endwise 'disen gagement of the drive and control members,

from the drive shaft. An ,annularwall 17 .on the inner face of" the web of. the fly wheel incloses achamber 18, the free edge of the wall being beveled acts the beveled face 20 of the adjustable member 21 of the separable drive. The hub 22 of the adjustable drive member is journaled on the barrel 11 of the fast drive member, and is slidable longitudinally thereon, to confine or release a drive belt 23 (preferably round in the present embodiment of my invention) which passes between the separable drive or pulley members.

The "'hub 22 of the adjustable drive memher is, of much smaller diameter than the chamber 18, and in order to prevent the belt from slipping into the chamberwhen the ad ustable drive member is separated from the fast drive member, I provide what I.

have termed a free wheel 24 interposable between the adjustable and fast'drive members, and equipped with an antifriction bushing'25 (preferably of bronze) journaledon the hub 22 of the adjustable drive member.

The peripheryof the free wheel-2 1 lies flush with basesof the inclined faces 19 and 20 of the fast andadjustable drive members,

the inner face of the adjustable drive member being recessed at 26, to fit over the adj acent edge ofthe free wheel.

The hub 22 of the adjustable drive member protrudes slightly beyond the free wheel 24, whichis held in place against the web of the adjustable drive member by means ofv ring is introduced to its seat by inserting one of the split ends thereofin a groove 29 leading from the outer end of the hub to theseat 28, and turning the washer relatively .to the .hub until itis fully entered in itsseatf I The ring 27 prevents endwise movement of the free wheel 24; on.its supporting hub .22, so that the adjustable drive member 21 and the free wheel shift together toward and from the fast member, the free wheel en .tering the chamber: 18 as the adjustable member-.21 shifts toward the fast member-.17, and emerging from the chamber 18 during thewithdrawal of the adjustable member. The free wheel 2 1 has a sliding fitalong the inner periphery of the annular wall 17, the width of the free wheel being sufficient to extend between the beveled faces 19 and 20 of the separable members, at all times.

An absorbent pad 30, of felt on other suitable material, lies an annular recess 31 formed on the inner face of the web of the adjustable drive member 21, and is soaked in oil to provide lubricant for the abutting surfaces of the free-wheel. andadjustable. member respectively.

In this form of myginventioml prefer to employ means normally tending to separatethe drive membersll? and 21, and to this end,l"provide the hub 22 of the slidable' drive member with oppositely locatedpilot studs 32 projecting axially therefrom across the chamber 18, the free ends of the studs entering guide sockets 33 formed axiallyof the central boss 14 of the fast drive member. Springs 34 encircle the pilot studs, and bear at their opposite ends against the boss 14 and the hub 22, respectively, to normally retain the drive members separated, as shown in Fig. 5, iii which figure, it will be noticed that the periphery of the free wheel 24 closes the space between the inclined faces 19 and 20 of the drive members.

In this position of the parts, the con to a drive pulley 36 mounted on the power or armature shaft 37 of a motor 38, located beneath the table, in accordance with the legal requirements, and out of the wayof the flying ends of the film, when thelatter breaks. The motor circuit 39 may be closed through a switch 40 located at the edge'o f the'table, as shown in Fig. 1.

"By shifting the slidable drive member 21 toward the fast drive member 17, against the tension of spring 34, the bight of the belt is picked up from the periphery of the free wheel 24, and confined between the two diverging faces 19 and 20, up which it 'is caused to ride to tighten the belt and enable it to turn the members and the drive shaft.

Springs 34 shift the slidable drive member in the opposite direction, and release the belt which then rides down the inclined faces 19 and 20, gradually slackening, until it'rests on the free wheel 24 which hasbeen brought to'e'flective position, by the lateral withdrawal of the slidable drive member from its fast drive member.

To enable the operator to effect or prevent the transmission of power to the drive shaft 5 and spindle 5 Iprovide a controlling means for the slidable drive member 21, which means is actuated by a suitable fulcrumed pedal 41 intermediate the ends of which, at 42, is connected the lower end of a control rod 43, extending upwardly through alined apertures in the table 1 and in the base a of the standard A.

A fixture 44 threaded on the upper end of the control rod, is secured-to a crank 45 65 fastened to a counter shaft '"46 journaled'in' holder.

the legs 3, 3 of the standard, parallel with and preferably beneath the drive shaft 5.

The control rod 43 maybe made'in sections connected by a union 47 (Fig. '2) to permit of its adjustment to tables of different heights, and-the crank 45 'is also adjustably secured by a set screw 48 to the counter shaft '46,the hub of the crank filling the space between the internal bosses 49 (Fig. 1) on the legs 3, 3, to prevent endwise movement of thecounter shaft.

A spring 50 encircles the upper end of the control rod '43, the lowerend of which spring rests on the base a of thestandard. A tensioning nut 51 threaded on the control rod '43 contacts the upper end of the spring to regulate the tension thereof, and is held where adjusted by a lock nut 52.

The releasing spring 50'tends to hold'the pedal 41 in raised position and rock the counter shaft 46 counter-clockwise.

The c'ountershaft 46 extends rearwardly of the standard beneath the reduced portion 90f the drive shaft 5, to form a'supportforastrap or'holder, the vertical stock 53 (Figs. 1, 3, '4 and'='7) of which'terminates at its-lower end in a bearing or eye 54 j ournaled onthe counter shaft 46.

A ring-shaped head 55 on the upper end or the stock 53 accommodates a circular controlling disk or member'56 fitted around the barrel 11 of the fast drive member, the outer or forward face of the disk abutting against a thrust collar 80 secured by a set screw '81 to the barrel 11, to resist end thrust, the inner face of the disk being equipped with one or -more cam rises 57 adapted to coactwith cam rises 58 (Figs.

5 and 6) locatedon the opposing inner face of a corresponding disk 'or controlling member 59 rotatably and slidably mounted on the barrel 11, and similarly secured in the ring-shaped head 60 of a strap or The stock 61 ofthe head 60 projects laterally from thedrive'shaft 9, and is pivotally connected, at 62, to the upper "end of a depending link 63, the lower end of which is pivotally connected at 64-to an arm 65, fixed to and projecting from the rear end of the counter shaft 46.

The control member 56 is held stationary against lateral play, bythe thrust collar 80 and the stock'53, the latter being confined against movement on the counter shaft 46,

between the external boss 66 on the rear leg '3 of the standard, and the hub 67 of the projecting arm65.

The stocks 53 and 61 and the heads 55 and 60 of the straps or holders for the control members, are split, as shown in Figs. 6 and 7 to releasably clamp about the control disks or members 56 and'59.

This permits rotatory adjustment-0f the disks relatively to each other to :compensate for wear of the cam rises 57,58.

One set of cam rises, as 57, are of greater length or extent, than the cam rises 58, in order, to materially lengthen the effective life of the parts by providing for an indefinite numberof adjustments before the cams are worn out. q f

In addition, the control members or disks are laterally adjustable relatively to their heads55'and 60, the active control member 59 being located between the stationary control member .56 and the forward face of the shiftablc-drive member 21, and such lateral adjustment ofthe control disks, regulates the distance between the fast andslidable drive-members to enable beltscof various sizes to be used.

Clamping screws 68 pass through the split portions of the stocks "53 and 61 to contract the heads 55 and 60 snugly around the disks 56 and 59; j

A stub shaft 69 (Figs. 3 and 4) mounted in the free end of the control arm 65, parallel with the, drive shaft 5, supports a belt.

tightening pulley 70 located in the same ver tical plane with the sectional drive pulley 17, 21, (Figs. 1 and 4), the belt tightener 70 adapted to contact the belt 28 and take up slack therein. j

The belt tightener is permitted a slight amount of side play on the stub shaft 69 (Fig. 4) to enable it to follow the belt, as the latter plays laterally on the sectional drive pulley 17, 21, such play of thebelt tightener being limited by the arm 65 on one side andby the stationary head 71 of a common form of serrated coupling, whose adjustablehead 72 coacts with the stationary head 71 and isheld where adjusted by l a lock screw 73. Further description of this coupling isthoughtlto be'unnecessary.

The adjustable coupling head 72 carries a;

radially projecting arm 74, to whose outer end is secured the tongue 75 of a brake shoe 7 6 fitted to the contour of, and adapted to contact, thefiy wheel 10. A locking screw 77 adjustably secures the tongue 75 ofthe brake shoe to the radial supporting arm 74, and in conjunction withthe adjustable coupling 72, enables an accurate adjustment of the brake shoe to accommodate itself tothe periphery of the'fly wheel. The brake. shoe 76 is preferably lined with a flexible friction material 78, as leather, whichis r e-g movably sccuredthereto by. the fastenings 79. The outer faceof the stationary control member 56 carries a threaded neck 82 (Fig. 5) adaptedto bepacked with lubricant. A

cap 88 apertured to fit over the rear endof the control members.

ber 59 is wider than-the annular 'head55 in V which the control disk or member 56 is held, 'andextends across and closefsthe space between the two control members (see Fig. 5) when the drive shaft is at rest, to permit lateral adjustment of, the control member 59 to variously limit the extent of withdrawal 1 of the slidable drive member and to prevent the entrance of extraneous material between hen the control members 56. and 59 are forced apart by the 'engagementofthe cam rises 58 with the stationary cam rises 57, to shift. the slidable drive member 21 toward itsfast drive member l7,and cause the belt lubricant might be thrownout from between the control members,by centrifugal" force, to prevent which, I mount the shiftable control member 59 on a sleeve fast in, and projecting from the bore of thecontrol member 56,-the sleeve inclosing that part of the barrel 11, between the slidable drive member 21 and the thrust collar. 80.

ablecontrol member 59, incloses the space between the side face of such control member and the web of the slidable drive member .21, to confine the lubricant at this point, against being thrown I of by centrifugal force.

In the normal position of the parts, the spring 50bearing against the tensioning nut 51- forces the-control rod 43 upwardly, raising the pedal 41 and rocking the crank 45 and the eountershaft '46, counter-clockwise;

Rotation of the counter shaftin such direo so 28 to turn the drive shaft and spindle, the

tion, raises. the'depending control arm 65 to press the brake shoe 76 snugly against the periphery ofthe fly wheel 10,;whereby to instantly arrest the latter against rotation. I

tion of-the control arm 65, raises the link 63,'t o turn the strap or holder 60, 61 a-ndthe relatively to I the coacting stationary control ,menrber 56, to disengage the cam rises 58 of .therotatable and slidable member from the opposingicam rises57 of thestationary-member. This enablesthe compressed releasing springs 34 to force. the slidable drive member or pulley section21 away from the fast drive member or pulley section 17, to'libera.tetlie-belt 23 and allow it to rest on the periphery of the free wheel 24 which slides out of chamber 18, as the'drive member 21 withdraws from the-fast drive member 17.

The rotatable control member 59 and its Furthermore; the counter-clockwise rotarotatable and slidable control member 59, i

strap or'holder slide longitudinally of the barrel 11 by reason ofthe expansion of the releasing springs 34; during the separation of the drive members, such longitudinal travel of the rotatable control member being permitted by its loosepivotal connection 64: with the arm 65. 7

To start the machinefor operation, I will assume that the motor switch 40 has been turned to connect the motor 38 witha suitable power supply. The power or armature shaft 37 of the motor drives the pulley 36 and belt 23, which latter rides loosely onthe freewheel 24, turning the latter and its bushing 25 idly on thehub 22 of the adjustable drive member 21.

l/Vhen the operator desires to wind or re wind a film, he places an empty spool or reel 6 on the spindle 5 so that the usual keyway in the hub of the spool fits over the key 7 on the spindle.

The coil of film to be wound or rewoundis preferably placed on a spindle (not shown) adjacent to and parallel with the spindle. 5, so that the coil andthe empty spool 6 liein the same horizontal plane.

The operator then depresses the pedal 41 to draw downwardly the control rod 43 against the tension of the spring 50, and rock the crank 45in a clockwise direction to turn the counter shaft 46.

The counter shaft. rocks the control arm supporting the belt tightener or pulley 7 0 and the brake shoe 76, towithdraw the brake from engagement with the fiy Wheel 10, thereby freeing the latter and. the drive shaft for rotation. The control arm 65 also swings the belt tightener 7 0 against the belt 23 to cause it to take up surplus slack therein, should the belt stretch unduly after long usage, as hereinafter explained.

My pending application shows the pedal control of the brake and belt tightener, but the present invention goes further, as follows:

The control arm 65, when rocked downwardly by depression of the pedal, draws link 63 downwardly to turn the shiftable control member 59 on the sleeve 85, and cause its cam rises 58 to rideupon the cam rises 57 of the stationary control member 56. Naturally, this forces the shiftable control member 59 longitudinally of the sleeve 85 and barrel 11, against the hub 22 of the slidable drive member 21 to crowd the latter toward the fast drive member 17, against the tension of the-releasing springs 34L As the slidable drive member 21 slides over toward the fast drive member, the inclined face 20 of the slidable member contacts the driving belt 23 to shift it against the inclined face 19 of the fast member and finally forcesit to ride up the inclined faces 19 and 20 to thereby take up the slack in the belt, and cause it to turn the drive'members. lhe

drive members transmit motion to the drive shaft 9, 5, and spindle 5 through the set and retaining screws 13 and 15, whlch connect:

the fast drive member to the drive shaft.

The inclined or beveled faces 19 and 20- of the fast and adjustabledrive members takeunder the bight of the drivebelt', as the adjustable drive member approaches the fast drive member, to tauten thebelt, and

leasing springs 34 contact and are pressed against the boss 14 ready to actupon the release of the fast pedal, to separate the drivemembers.

It will be observed that the cam rises 58 can ride up the inclined cam rises 57 and upon continued. depression of the pedal 41, the cam rises 58 will traverse the cam rises 57 without forcing the shiftable drive member 21 any closer toward its fast drive member.

By permitting such extra relative movement of the cam rises, the continued depression of the pedal is utilized to force the belt tightener to. take up the. surplus slack- The operator will, of course, only depress the pedal to that point in its travel at which the film is wound at the speed desired, but in case the drive members cannot take up all the slack in the drive belt, and slippage still occurs whenthe cam rises 58 first ride upon the rises 57, then further depression of the.

pedal will render. the belt tightener 70 effective and no bindingbetween the cam rises will take place.

The parts remainin this position and the spindle rotates, so long as the operator maintains the pedal depressed, and by varyingv the pressure thereon theposition of the slidable drive member 21, may be adjusted to variously slacken or tauten the belt, and

thus regulate the speed of rotation of the drive shaft. This enables the operator to accurately and quickly control the speed at which the film is wound, to permit inspec tion.

By employing the fast and slidable drive cal arresting member 87 one end wall' of -to force the slidable drive member 21 away from the fast drive member 17, and slacken the belt. Separation of the slid-able drive member from the fast drive member draws the free wheel out of the chamber 18 and interposes it beneath the belt 23, which is idly supported thereon.

Attention is called to the fact that the separable drive members 17, 21 and the control members are all mounted on the drive shaft 9, 5, and that the shiftable drive member 21 and the control members 56, 59 therefor, are all mounted on the barrelll of the fast drive member. a v

By securing the thrust collar 80 to the barrel 11 and mounting the control members 56, 59 and the adjustable drive member 21 between the thrust collar and the fast drive member 17 the thrust of the rotatable control member 59 against the stationary control member 56 which would tend to shift the drive shaft 5 to the right Fig. 5) is equalized in the opposite direction by the thrust of such rotatable control member to the left against the adjustable drive member 21 and the fast drive member 17 to which the barrel 11 is connected, so that. no thrust in either direction is im-- parted to the main drive shaft 5,-which is thereby relieved of friction. For this reason, no means is required to hold the main drive shaft in position in its bushing l against longitudinal travel, the collar 8 serving merely as a locating stop in assembling the parts, and to space the spool away from the standard. 7

If a win'dingma'chine, such asabove set forth, is associated with a similar machine tosupport the coiled supply film which is to be rewound, itwould be a veryeasy matter to connect the respective machines in such manner that thepedal of one. machine when depressed, would control the'othermachine', torelease the brake.

I have provided improved means to secure the empty spool 6 on the spindle 5 against disengagement therefrom, which, in

the present instance, includes a retainer (Fig. 8) applied to the free end 'of the spindle, in place of the common threaded nut 'ora other fastenings heretofore in use. 1

This'retalner comprises, a hollow cylindrlwhich is apertured to fit over the outer end of the spindle 5 and bear against the hub of the spool 6. The opposite end of the cylindrical arrester is threaded to accommodate an apertured cap '88. A locking key 89 passes loosely into the hollow arrester through the opening in'the cap, and is recessed at its inner end, as at 90, to fit over;

the freeend of-the spindle. A locking pin or bit 91 carried by the lnner end of the key 89, projects inwardly into the recess 90, to enterone end of abayonet slot or groove 92 (Figs. 5 and 8) formed on the free end'of the spindle, the

open end ofv the'slot lying flush with the end of the spindle. Thekey is turned on the spindle to eause the locking pin or bit 91 to follow the slot until it brings up against the closed end thereof, Where it is yieldingly held by a spring 93 inclosed in the arrester,

one end of the spring bearing against the end wall of the arrester and the opposite end i of the spring pressing against an annular shoulder 94 formed on the stem of the key 87 to hold the pin 91 in the closed end of the slot and prevent the disengagement of the retainer and spindle. The shoulder 9'-1- also prevents'the disengagement of the key and the cap 88. r V

In applying the retainer to the spindle,

the operator grasps a knurled head 95 on} the outer end of the key 89 and fits theaper-' ture in the end wall of the arrester 87 over the free end of the spindle 5, after which he slides the arrester onto the spindle, the

' free end of which passes through the centhe locking pin 91 enters the open end of the bayonet slot 92, whereupon the key is pressed farther onto the end of the spindle against the tension of thespring 93, the locking pin 91 following the slot until it reaches theclosed end thereofi The key is now released to enable the tainer'in place. 1

It will be observedthat' the retainer will remain effective in either direction of rota tion of the spindle.

By pressing-inwardly on the head 95 to" force the key inwardly and disengage the locking pin' 91 from theclo'sed end] of the locking slot 92, and then turning the key I spring 93 to force the locking pininto the closed end of the slot, and thus hold the reuntil the locking pinregisters with the open end ofthe slot, the retainer may be quickly removed to release the spool.

Changes maybe made in the form andarrangement of the several parts set forth, 5' some of which may beomitted without departing from the spirit and scope of my in- Vention.

lVhat I claimas new, is

1. The combination with a power shaft;

and a drive shaft; of separable drivemembers, one of which is connected, to the drive shaft, and the coacting member adapted to shift relatively to the fast drive membema stationary control member; a rotatable con: trol member cooperable therewitlnand shiftable between. the stationary control member and the adjustabledrivemember tocontrol the position of the latter; and connecting means between the power .shaft and, drive members, rendered effective by the. adjust,- able drive member when, shifted. toward the fast drive member.

2. The combination with a power; shaft, and a drix e shaft; of separable drivermembers, 0ne of which is fast on thedrive shaft,

and the coacting member of which is adaptedv to shift toward and from the fast drivei member; means normally tending to shift the adjustable drive member in one direct1on;a stationary control. member; rotata;

ble. control member to coact therewith and; shiftable between the stationary control member-- and the adjustable drive member to adjust, the latter relatively to its fast drive member; and connectingmeans actuated, by the power shaft to turn the drive members when the adjustable drive memberis in one of its positions.

3. The combination with. a power shaft, and a drive shaft;- of a drive-member con.- nected to the drive shaft; a cooperating drive membershiftable relatively to the fast drive. member; means to control the position of the shiftable drive member; a con nection; between the power shaft: and drive members; and a. supportfor theconnection,

freely rotatable relatively to the drive member-s,and rendered, effective to sustainthe connectionwhen the shiftable drive member is inidle position.

4. The combination withv a power shaft, and a drive-shaft; of a drive member-con: nected with the drive shaft to turn therewith, a cooperable drive member shiftable toidle andoperative positions relatively to the fast drive member; means to control the;

shaft to, the drive members; a freely rotata- :ble support for the connection, located between the drive members and adapted to] sustain. the connection when the} adjustable drive memberis sh fted away from the fast 4 drive member; the adjustable drive mem ber adapted v to confine the endless. connection between itself andthe fast drive mem ber,when shifted toward the latter.

(3; In a. power transmitting mechanism,

the combination with a driveshaft; of separable drive members mounted; oirtliefclrive shaft, one of the members ,connected to turn with the drive. shaft; the coaeting drive member adapted, to. shift, relatively to the fast drive member; a, drive-belt passingbetween the drive members; and adapted; to be confinedbetween the latter, to turn-the drive shaft; yielding. means tending. to shift the adjustabledrive memberto idle position to release the belt; anidly rotatable support for'the endless belt adapted, to sustain the latter when the adjustable drivemember is.

shifted to idle position; and means-to con-- trol the position. of the shiftable drive-member.

7,. The, combination with a drive shaft; and an endless drive belt; of a separable pulley; one section of the pulley connected to turn with the driveshaft; the coacting pulley section adapted toshift relatively to the fast pulley section; the pulley sections each having an inclined face, between whichy the belt passes; and control. means to shift the, adjustable pulley member toward, the

coacting fast member, whereby the-inclined pulley faces engage and tauten the belt, to effect the rotation of the drive shaft, or to permit the separation of-the-adjustable section from its fast section to release the belt froinbetween theinclined faces.

8. The combination with a; drivebelt; and. a drive shaft; of separable drive members having opposedv inclined faces between which the belt passes, one of the drive members being connected to the shaft to turn there with, and theeoacting member being adjustable toward, and from the fast member, to cause the belt to ride up 011 the inclined. faces, or to release the belt; and a free wheel interposed between the inclined faces, and. effective to support the belt when the adjustable drive member is withdrawn from its coacting fast member.

9. The combination witha drive belt; and a drive shaft; of separ-able. drive members having opposed inclined facesbetween which the beltpasses; one of the drive members being connected tothe drive shaftto turn. I

therewith; the coacting member beingadjustable toward and from the fast member, to cause the belt to ride up. on. the inclined faces and turn the drive members, or to release the belt and a free wheel whose pe' riphery lies flush with the bases of the inclined faces andeffective to support the belt when the beltis released.

The combination with a drive belt; and a drive shaft; of separable drive members havingopposed inclined facesbetween which the belt passes; one of the drive members being connected to the drive shaft to i. turn therewith; the coacting member being .adjustable toward andvfrom the fast mem- .axlalbarrel fitted over the drlve shaft; the

coacting drive member slidably mounted on ber, to cause the belt to ride upon the in clined faces and tu'rnthe drive member, or to release the belt; and a free wheel journaled on .the hub :of' the adjustable drive member and shiftable therewith ,relativelyto thefast member, to close the space between the inclined faces when the adjustable member iswithdrawn from its fast member and afford a support for the beltwhen released.

111. The combination with'a drive belt; and adrive shaft; of separable drive members between which the belt passes, one of the drive members having a recessed, boss and'secured to the drive'shaft to turn therev with;:the coacting drive member adjustable toward and from the fast drive member to render the belt effective or inefiective; guide studs carried by the adjustable drive member and entered in the recesses in the fast drive member; springs-on the studs between the adjustable and fast drive members to :normal ly hold them apart; and controlling meansto shift the adjustable drive member toward the fast drive member against the tension of the springs.

12. The combination witha drive belt; anda drive shaft; of separable drive mem berstbetween which thebelt passes, one of the Iidrive me mbers secured to the drive shaft; the coacting drive member adjustable toward and from the fast drive/member to enable the-belt to drive the shaft, orto. re-

lease the belt; springs interposed between the ,fast and adjustable drive members to normally hold them apart; and controlling means toadjust the adjustable drive member toward thefast drive member against the tension of the springs;

. 13. The combination with a drive belt; and a drive shaft; or separable drive members between which the belt passes; one of the .drive members being secured to the drive shaft to turn therewith, and havmg an shaft,andhaving achamber formed therein; 7

the coacting drive member adjustable toward and from the fast member, to tighten or release; the. belt; and a free wheel connected for simultaneous adjustmentyvith the adjustable drive member, into and out of the chamber int-he fast drive member, and ,rotatable independently of the drivemembers, the periphery of which wheel. is adapted to close the space between the adjustable ,and fast drive members, when separated, to

support the slackened belt. a

15. The combination with a drive belt;

bers between which the belt passes; one of the drive members being chambered and secured to the drive shaft; and having a bar -.rel fittedover the drive shaft; the coacting drive member slidably mounted on the barrel for adjustmenttoward and from the fast land" a drive shaft; of separable drive memdrive me1nber,;to tighten or slacken the belt;

and a free wheel journaled on the hub of the adjustable drive member for simultaneous adjustment therewith into and out of the chamberin the fast drive member; the

periphery of the wheel adapted'to close the .7 space between the drive members when separated, and support the slackened belt.-

16. The combination-with a drive belt;

and a drive shaft; of separable drive members between which the'belt passes; one of the drive members beingconnected to turn with the drive shaft, the coacting drive member adapted foradjustment toward and from the fast drive member, toconfine or release the belt; and controlling means to effect such adjustmentin one direction, in-

cluding a stationarycam member; and a rotatable cam member interposed between the jadjustableidrive member and the stationary cam member, and cooperable with the latter to shift the adjustable drive member toward the fastdrive member.

17. The combination with a drive belt; and a drive shaft; of separablev drive membersbetween which thebelt passes; one of the. driv members being connected to" turn with thedriveshaft, the coacting drive member being slidably supported by the shaft to enable it to shift towardand from the fast drive member to confine or release the belt; V

and controlling means to effect such adjust- .ment 1n one,d1rect1on, including stationary and; rotatable: cam disks encircling the shaft; the rotatable cam disk also adapted to slide relatively to the shaft, and interposed between the stationary cam disk. and the adjustable drive member, to force the latter toward the fast drive member, or to release .it for Withdrawal therefrom.

18.. The combination with .bers between whichthe belt passes; one of the drive members being connected to turn with theidrive shaft, the coacting drive mem- V .7125 V r V adrive belt; and a drive shaft; of separable drive memin which one at least of the canr members is her adapted for adjustment toward and *a stationary ean'r member; and a rotatable cam member interposed between the adjustable drive member and the stationary cam member, and coeperabl-e- With the latter to shift the adjustable drive member toward the fast drive member and a strap or holder adjustably clamped; v

19. The combination in a lilnrwinding'and reWi-nding machine, with a standard; of a drive shaft Whose central portion is journale'cl therein, and terminating one end in a spindle, the opposite'end of the drive shaft being red-uced' to form a shoulder; separable drive members, one of which isfast with the drive shaft; a barrel proj-ectin-g from the first drive member and encircling the reduced portion of the drive shaft, the end of the barrel adapted to lie agaii'ist the shoulder on the shaft; the coasting drive member being slidably mounted on the barrel for adjustment toward and from the fast drive member; a drivebelt adapted to pass;- between the adjustable andfast d'rire members; yielding means normally tending to separate the drive members to releasethe belt controlling means for the drive memhere, including coafcti ng stationary and rotatable eanr members encircling the barrel of the fast drive member; a tl'i'rust seller on the barrel against which the stationary cam member bears, and by which it isheld against movement in one direction; anindependently-supported strap or holder in which the stationary cam member is clamped, the coacti'i'i-g cam member located between the stationary cam member and the adjustable drive member, to shift the latter toward the fast drive member, and permit its Withdrawal therefrom; and means to op erate the coacting' cam member.

20 In a' film winding and lewlntlllfg nrz chine, the combination with a drive belt, a standard, and adrive shaft, j ouri'ialed in the standard; of separable drive members betWeen which the belt passes,- one of the drive members being fast With the shaft; and the coacting drive member being adjustable teward'and from its fast drive member to confine" and release the belt; and controlling means to shift the adjustable drive anemher at will.

21 In a film Winding and rewindiirg ma chine, the combination With a drive belt, a standard, and a drive shaft, j'ournaled inthe standard; of separable d rive members between which the belt passes, one of" the drive members being fast with the shaft; and the co'a eting'drivemember being ad justable toward and from its fast drive member to confine and release the belt; and

eta-3891 controlling means to shiftthe adjustable drive member will, i n'cl udiirg stationari'l'y-sup aorted member having: rise, andarotatable and laterally shiftable member' interposed between the stationary. men-- her and the adjustable drive meinber', and having a cam rise to coast with that on the stationary contr-oll iiig member;- and means to operate the rotatable controlling member.

22. In a film windin and renewing machine, the com'bination with a drive belt, a standard, and a' drive shaft,jonrnaled in the standard; of sep'arabl'e drive member's between which the belt passes, one of the'drive members being first with the shaft and the coa-cti ng' drive member being adjustable toward and from its fast'dr'iye member to confine and release the belt;- and centre-Him means to; shift the a dj i istab'l e drive member at Wlll, ineh'rdin'g' ah an-nular'disle eneiro'liirg the" drive shaft; a counter shaft; a strap or holder supportea on the eoi'inter shaft,- and having a split ring shapect head to surround the eriphery of the camdisk, to perm-it ro'ta t'ive and lateral adjustment thereof relatively to the heart; means to clamp the ring-shaped head about the disk to hold it Where adjusted; a. sim'iil arean disk interposed between the adjitstable drive member and the first named cam disk, and adapted to coact With the latter; a strap or holder having a split ring-shaped head releasably' clamped a boutthe last named di'sk'; means to rock the counter shaft'gan arm on the counter shaft and to connect the last name strapand the arm, to arm"- the last named; cam disk relativel a the first named disk to shift the adjustable drive member toward the fast drive member.

23. In a film winding reivindin'g mashine, the combination with a drive belt, a s'tandard, a1id adrive shaft,journa-led in the standard, of separable drive members between which the belt passes, one or the drive members being fast With the shaft; and the coacting' drive member being actj'ustable toward and from its fast drive member to confine and release the belt; and con-trollinginearis' to shift the adjiis'table drive member at will, including an annular disk encircling the drive shaft; a counter shaft; a strap" or holder supported on the counter shaft, and havin a split ringshape'd head to surround theperiphery of the cam dish, to permit rotative and lateral adjustment thereof relatively to the' heacl; means to' clamp" the r'i'irg-s'hape'd head about the disk to h'ofd it Whereadjusted; a cam disk interposed Betweenthe adjustatie drive A member and the first nanred'cam disk, and a rpt'ed to c'oaetivitl r the latter; a strap or harder havin a split ring-shaped head releas'ably clamped about the last named disk; meansto rock the coimter' an arm en the counter shaft; means to connect the last named strap and the arm, to turn the last namedcam disk relatively to the first named disk to shift the adjustable drive member toward the fast drive member; and a guard sleeve carried by and projecting from the first named cam disk, and on which the rotatable cam disk shifts.

24. In a film winding and rewinding ma chine, the combination with a drive belt; a drive shaft; and a fly wheel; of separable drive members between which the drive belt passes; one of which is fast with the shaft, and the coacting drive member adapted for adjustment toward and from the fast member; controlling means to shift the adjustable drive member, including stationary and rotatable cam members, respectively; a brake for the fly wheel; and means to simultaneously release the brake and operate the rotatable cam member to shift the adjustabledrive member toward the fast drive mem-- her, or to apply the brake and Permit the withdrawal of the adjustable drive member to idle position.

25. In a film winding and rewinding machine, the combination with a drive belt; a drive shaft; a brake; and a fly wheel; of separable drive members between which the belt passes; one of the drive members being fast with the shaft; the coacting drive member adapted for adjustment toward and from the fast member to confine or release the belt; and controlling means to shift the adjustable drive member, and to simultaneously control the application of the brake to the fly wheel.

26. The combination with a drive belt; and a drive shaft; of separable drive members, between which the belt passes; one of the drive members connected to turn with the shaft, and having a barrel encircling the shaft; the coacting drive member mounted on the barrel for adjustment relatively to its fast drive member to engage or release the belt; controlling means mounted on the barrel to effect such adjustment, and including a shiftable member working between a coacting stationary member fast on the barrel, and the adjustable drive member, whereby the thrust of the shiftable control member against the adjustable drive member in one direction is equalized by the opposite thrust of the shiftable control member against the stationary control member, to relieve the drive shaft from thrust.

27. The combination with a drive belt; and a drive shaft; of separable drive mem-' bers, between which the belt passes; one of the drive members connected to turn with the drive shaft; the coacting drive member adapted for adjustment relatively to the fast drive member to engage or release the belt; controlling means to effect such adjustment, including coeperating stationary and rota- 28. The combination with a drivelbelt;

and a drive shaft; of separable drive mem bers between which the'belt. passes; one of the drive members being secured to the drive shaft to turn therewith; the coacting drive member being slidably mounted on the drive shaft, and adjustable toward and from the fast drive member to engage or releasethe belt; and a free wheel interposed between the drive members, the periphery of which -wheel is Wide enough to extend betweenthe drive members Where the latter are separated, to support the released belt.

29. The combination with a drive belt; and a drive shaft; of separable drive members, between which the belt passes; one of the drive members being connected with the shaft to turn therewith; the coacting drive member arranged for adjustment toward and from the fast drive member; means to shift the adjustable drive member relatively to its fast drive member; and means to connect the drive members in any of their rela tive positions to cause them to turn as one.

30. The combination with a drive belt; and a drive shaft; of separable drive members, between which the belt passes; one of the drive members being connected with the shaft to turn therewith; the coacting drive member arranged for adjustment toward and from the fast drive member; means to shift the adjustable drive member relatively to its fast drive member; one of the drive members having sockets formed therein; studs carried by the other drive member and entered in the sockets in the first named drive member to prevent relative rotation of the drive members.

31. The combination with a power shaft; and a drive shaft; of separable drive members, one of which is connected to the drive shaft, and the coacting member of which is adapted to shift relatively to the fast drive member; a stationary control member, including a cam whose high point merges into a dwell surface; a rotatable control member cobperable with the stationary control member, and shiftable between the stationary control member and the adjustable drive member, to control the position of the latter; said rotatable control member including a cam to coact with the stationary cam and dwell surface, wherebythe rotatable cam member can ride past the high point of the stationary cam member and along the dwell portion, to maintain the adjustable drive member in adjusted position;

and connecting'means between the power shaft and the drive members, which connectlngtmeans 1s rendered efi'eotive to. turn the drive shaft, by the adjustable drive member when shifted toward the fast drive member.

32. The combination with a powershaft; and a drive shaft;- of separable drive members, one of which is connected to the drive shaft, and the coacting member of which is adapted to shift relatively to the fast drive member; a stationary control'member, including a cam whose high point merges into a dwell surface; a rotatable control member coeperable withthe stationary control me1 n ber and shiftable between the stationary control member and the adjustable drive member, to control the position of the latter; said rotatable control member including a cam to coact with the stationary cam and Games of thle patent may be obtained for ening member operable by the rotatable conmama dwell surface, whereby the rotatable cam member can ride pastthe high point of the stationary cam member and along-the dwell portion, to maintain, the adjustable drive member in adjusted position; connecting means between the power shaft and the drive-members, which connecting means is rendered effective to turn the drive shaft, by the adjustable drive member when shifted toward the fast drive member; and'a tighttrol member to take up, slack in theconnccting means, andincreasingly effective as the rotatable control memberturns in one direction relatively to the stationary control member, and asthe cam of the rotatable con- 35 trol member rides along the dwell portion of the stationary control member.

ROBERT W. JONES ave cents each, by addressing: the gcommissioner 05 Patents. Washington, Q41. 

